The invention pertains to a (cascaded) optical switch at least comprising one input path, a number of output paths, one or more switch or splitter stages each comprising one or more optical switches or splitters, and at least one gate for optically disconnecting the output paths from the input path, wherein that gate is located at or near the input path. The cascaded switches according to the present invention are compact exhibit a reduced complexity and an improved insertion loss.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A cascaded optical switch at least comprising one input path, a number of output paths, one or more switch or splitter stages each comprising one or more optical switches or splitters, and at least one gate for optically disconnecting at least one of the output paths from the input path, characterized in that the gate is integrated in a switch in the stage nearest to the input path and is suitable for other functions than as a polarization compensator only, said cascaded optical switch also characterized in that the optical switch or switches in the stage nearest the input path are 1.times.(P+1) switches, whereas the optical switches or splitters in the remaining stages are 1.times.P switches or splitters.
2. A cascaded optical switch according to claim 1, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
3. A cascaded optical switch, according to claim 1, characterized in that P equals 2 or 3.
4. A cascaded optical switch according to claim 3, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
5. A cascaded optical switch, according to claim 1, characterized in that it comprises two or more switch or splitter stages.
6. A cascaded optical switch according to claim 5, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
7. A cascaded optical switch, according to claim 5, characterized in that P equals 2 or 3.
8. A cascaded optical switch according to claim 7, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
9. A cascaded optical switch at least comprising one input path, a number of output paths, one or more switch or splitter stages each comprising one or more optical switches or splitters, and at least one gate for optical disconnecting at least one of the output paths from the input path, characterized in that the gate is integrated in a switch in the stage nearest to the input path and is suitable to optically disconnect the input path from the output paths, said cascaded optical switch also characterized in that the optical switch or switches in the stage nearest the input path are 1.times.(P+1) switches, whereas the optical switches or splitters in the remaining stages are 1.times.P switches or splitters.
10. A cascaded optical switch according to claim 9, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
11. A cascaded optical switch, according to claim 9, characterized in that P equals 2 or 3.
12. A cascaded optical switch according to claim 11, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
13. A cascaded optical switch, according to claim 9, characterized in that it comprises two or more switch or splitter stages.
14. A cascaded optical switch according to claim 13, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
15. A cascaded optical switch, according to claim 13, characterized in that P equals 2 or 3.
16. A cascaded optical switch according to claim 15, wherein said cascaded optical switch is used in an N.times.M optical switch matrix.
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May 12, 2000
December 11, 2001
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